CN103797136B - Method for beneficiation of fossil fuels and subsequent transport to consumers by pipeline - Google Patents

Method for beneficiation of fossil fuels and subsequent transport to consumers by pipeline Download PDF

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CN103797136B
CN103797136B CN201180065867.XA CN201180065867A CN103797136B CN 103797136 B CN103797136 B CN 103797136B CN 201180065867 A CN201180065867 A CN 201180065867A CN 103797136 B CN103797136 B CN 103797136B
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coal
water
fossil fuel
liquid
density
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CN103797136A (en
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C·恩克博德
B·亚历山大
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    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21CMINING OR QUARRYING
    • E21C41/00Methods of underground or surface mining; Layouts therefor
    • E21C41/16Methods of underground mining; Layouts therefor
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03BSEPARATING SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS
    • B03B9/00General arrangement of separating plant, e.g. flow sheets
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03BSEPARATING SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS
    • B03B9/00General arrangement of separating plant, e.g. flow sheets
    • B03B9/005General arrangement of separating plant, e.g. flow sheets specially adapted for coal
    • CCHEMISTRY; METALLURGY
    • C10PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
    • C10LFUELS NOT OTHERWISE PROVIDED FOR; NATURAL GAS; SYNTHETIC NATURAL GAS OBTAINED BY PROCESSES NOT COVERED BY SUBCLASSES C10G, C10K; LIQUEFIED PETROLEUM GAS; ADDING MATERIALS TO FUELS OR FIRES TO REDUCE SMOKE OR UNDESIRABLE DEPOSITS OR TO FACILITATE SOOT REMOVAL; FIRELIGHTERS
    • C10L1/00Liquid carbonaceous fuels
    • C10L1/32Liquid carbonaceous fuels consisting of coal-oil suspensions or aqueous emulsions or oil emulsions
    • C10L1/326Coal-water suspensions
    • CCHEMISTRY; METALLURGY
    • C10PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
    • C10LFUELS NOT OTHERWISE PROVIDED FOR; NATURAL GAS; SYNTHETIC NATURAL GAS OBTAINED BY PROCESSES NOT COVERED BY SUBCLASSES C10G, C10K; LIQUEFIED PETROLEUM GAS; ADDING MATERIALS TO FUELS OR FIRES TO REDUCE SMOKE OR UNDESIRABLE DEPOSITS OR TO FACILITATE SOOT REMOVAL; FIRELIGHTERS
    • C10L9/00Treating solid fuels to improve their combustion
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22BPRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
    • C22B1/00Preliminary treatment of ores or scrap
    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21FSAFETY DEVICES, TRANSPORT, FILLING-UP, RESCUE, VENTILATION, OR DRAINING IN OR OF MINES OR TUNNELS
    • E21F13/00Transport specially adapted to underground conditions
    • E21F13/002Crushing devices specifically for conveying in mines
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23KFEEDING FUEL TO COMBUSTION APPARATUS
    • F23K1/00Preparation of lump or pulverulent fuel in readiness for delivery to combustion apparatus
    • F23K1/02Mixing solid fuel with a liquid, e.g. preparing slurries
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23KFEEDING FUEL TO COMBUSTION APPARATUS
    • F23K3/00Feeding or distributing of lump or pulverulent fuel to combustion apparatus
    • F23K3/02Pneumatic feeding arrangements, i.e. by air blast

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Mechanical Engineering (AREA)
  • Mining & Mineral Resources (AREA)
  • Combustion & Propulsion (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • Organic Chemistry (AREA)
  • Geochemistry & Mineralogy (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Geology (AREA)
  • General Engineering & Computer Science (AREA)
  • General Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Environmental & Geological Engineering (AREA)
  • Manufacturing & Machinery (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Remote Sensing (AREA)
  • Solid Fuels And Fuel-Associated Substances (AREA)

Abstract

The present invention relates to the exploitation of different kinds of power generation fuels and can be used for coal, shale exploitation, and other mining branches connected with solid fuel users through transportation infrastructure equipment. The invention aims to reduce the energy intensity, improve the productivity, simplify the operation, improve the reliability of the whole mining and energy production system, avoid the loss of solid fuel and the elimination of some intermediate substances in the whole process chain, improve the use characteristics of mineral coal transported to a destination, improve the integrity of coal utilization, provide an uninterrupted transportation channel in winter and simultaneously reduce the adverse effect of the whole mining and energy production system on the environment.

Description

Fossil fuel beneficiation method and be delivered to user by pipeline transportation subsequently
Technical field
The present invention relates to exploit different types of fuel used to generate electricity, it is possible to for coal, the exploitation of shale, further relate to and pass through Other branches of the mining industry that transport infrastructure equipment is connected with solid fuel user.
Background technology
The conventional method providing coal or other solid mineral fuels for different user is known.To this end, by truck liter Raw ore coal is transported to ground and stores by fall machine (skip hoists), and concentrates on coal preparation plant (coal-concentrating plant).Then, the high-quality solid fuel so obtained is stored factory by railway transportation from finished product and transport to user.
The cleaned coal arrived at is unloaded from car, is deposited in open area, then carry and (see example directly to use Such as Golitsyn M.V., М. В., Golitsyn A.M.Everything About Coal.Moscow, Nauka Publishers,1989.–192pp.))。
Above-mentioned production process (string) includes that multiple storage operates, the cycle characteristics operated due to mining skip hoist And railway transportation, described storage operation is necessary.
But, solid fuel is sent in their technique rather than periodically by most users continuously, user Even with two-forty solid fuel sent in their technique.Such as, the coal consumption amount of modern fuels coal-fired power plant is with number Hundred tons of meters, are sometimes in terms of tens million of tons.Therefore, in order to avoid the danger of power generation stoppage, (power consumption reaches the most in the winter time To peak value, and due to snowbank, Coal Transport is the most irregular), outdoor fuel stock is likely to be breached hundreds and thousands of ton, even Millions of tons.
But, compared with quartz sand, coal is not chemical inert material, as long as and be not intended to lose its serviceability, Cannot be at storage outdoors.
During railway transportation and outdoor storage, inevitably there is the oxidation of coal process of oxygen in air.Therefore, greatly The coal of amount often becomes fire source, even if not burning, in these dumps, the ature of coal material of generation is irreversible Interior raw oxidizing process the caloric value of coal is greatly reduced, cause solid fuel increase in demand, and with this, generating efficiency significantly drop Low.
Additionally, the accumulation of a large amount of coals substantially means to form second time artificial coal mineral deposit.The most in the winter time, lose when coal When going its mobility and be merged into the monoblock freezed, transport fuel for combustion unlike from natural deposit from described " mineral deposit " (in natural deposit, coal field development whole during, the fragility of coal keeps constant) mining easily, the most more bother.
In the winter time, it is problem gloomy from railway carriage unloading coal, particularly when using wet separation method.Coal merges Become the block freezed, form single piece with compartment.
Therefore, railway transportation solid fuel is used, when particularly transporting to big power plant, the most in the winter time, it may be desirable to The second mining: for the first time, digs up mine from natural deposit, then, from artificial artificial " mineral deposit " mining formed.
In addition to the irreversible significantly loss of the use value of coal, from mine coal-face to boiler of power plant process In, owing to the numerous operations in serious dust problem, the intermediate storage of coal and railway transportation and whole technical process all can Cause the mechanical loss of significant flowable materials.It practice, only in railway transport course, the coal of windage loss just reach To every compartment 2-5 ton, this depends on the rugosity of coal, weather and train speed.
In addition to huge economic loss, it is contemplated that annual world's coal production amount, in terms of billions of tons, enters environment In coal dust will result in serious ecological problem and urgent hygienic issues, especially for next-door neighbour dust forming position society District.
From the point of view of the effect of technological essence and generation, method immediate with the present invention is to use aqueous magnetic iron ore to suspend Liquid carrys out coal separation, and transport subsequently is to destination (especially, see for example United States Patent (USP) 5169267).
Use aqueous magnetic iron ore suspension as railway transportation can be avoided by the mounting medium of pipeline transportation, And form integrated flow-type coal separation process (stream-handling concentration) and transportation.Large-sized solid Fuel processes at gravity preparation coal yard, and only uses pipeline transportation to be delivered directly to destination.Magnetic iron ore suspension is used to use It is ripe technology in coal ore dressing, is modal beneficiation method in world's coal mining industry.
But, the density (5.2-5.5g/cm of magnetic iron ore3) exceed the density (1.3-1.5g/cm of coal3) several times.Therefore, should Artificial dense media, (it is unstable in a stationary situation) containing hydromagnetite suspension cannot be used under the following conditions by coal from useless Stone separates.The most any ore-dressing technique, even if the storage of this suspension is also required to strong mixing to avoid magnetic iron ore to sink Long-pending.But, making magnetic iron ore be stably held in suspended state by constant agitation needs continuous print power consumption.Additionally, various Separator keep vigorous agitation pattern prevent the particle of aggregation of the density coal close with the density of barren rock to separate. This inevitably leads to jet ore deposit and by dirt and carries the ature of coal Substances Pollution to dump together with coal separation mine tailing;Right Especially true in the coarse component of the material processed.Therefore, the deep ore dressing of coal needs to crush aggregation by continuously grinding.
But, along with the size of raw material reduces, the size of the suspended matter particle for preparing dense media becomes increasing, Suitable with the size of mineral to be separated.
Therefore, the fluid for separating finely divided scattered material plays the effect of water itself rather than the effect of heavy suspension. But, the density of water is the least and is not provided that effective layering of the mineral constituting raw material.Therefore, weight magnetic iron ore suspension is used Coal ore dressing does not represent general ore-dressing technique.This causes for coal dust (it constitutes 1/3rd of total ature of coal amount volume) The coal separation field of ore dressing must use flotation, remembers that modern mining method faces the triumph of mechanization.
But, cost intensive an order of magnitude of flotation beneficiation method force of gravity method.Additionally, store near coal preparation plant Coal flotation milltailings remains serious ecological problem urgently to be resolved hurrily, described solution should in all its bearings from the point of view of all make People is satisfied.
The discrete topology prevention of magnetic iron ore suspension utilizes such non-uniform dielectric as being full of this medium By the most floating heavy fluid that coal is risen to from colliery hydrostatic ground in Vertical Well: in a stationary situation, work as liquid Static, magnetic iron ore is irreversibly deposited in hundreds of meter of eminence in such vertical column, and liquid loses dense media character, and at this Close magnetic iron ore stopper (plug) is formed on the bottom of pipeline.
Occurring in relaying pipeline under the conditions of high fluid turbulent, magnetic iron ore may only precipitate in force majeure event, Such as pumping plant power failure, the attack of terrorism etc..
But, under any circumstance, use magnetic iron ore suspension to cause as mounting medium in long-distance transportation system Power consumption is significantly increased, and to avoid magnetic iron ore to precipitate, coal-slurry compositions should accelerate to be significantly higher than coal-aqueous mixtures Speed.Another problem is the high corrosion mill of the pipeline caused by the high frictional property particle of high-speed mobile and centrifugal pump active wheel Damage.Noting, the quadratic power along with power consumption that increases of pipeline flow velocity increases (speed increases by 3 times of needs electric power and increases by 9 times).This The abnormal high speed planting nonhomogeneous system also results in power consumption increase.
In addition to power consumption is excessive, high speed coal hydrotransport is inevitably used also to cause high frictional property magnetic iron ore Abrasion aggravation, and, thus result in the deterioration of the coal being delivered to user and owing to being formed after mounting medium reclaims moisture-free coal Coal dust increase cause mechanical loss to increase.
The increase of duff does not only result in deterioration and the increase of dust in all subsequent manipulations of coal, also exacerbates output The problem that moisture-free coal separates with the pasty state body refuse produced during water and pipeline line haul, and also seriously limit the non-of coal Fuel applications (such as, is used for producing coke).
The fact that must take into, most fossil coals contain methane.Therefore, in the destructive process of coal, coal contains The volatilization of all methane, and finally enter in air, this not only significantly reduces fuel heat capacity, and irreversibly destroys Environment, because methane and refrigerant (freon) are one of chief destructive persons of earth atmosphere ozone layer.
And, in mounting medium, the solid of the similar magnetic iron ore of existence is mentioned thing (solid heaver) and is caused transport channel Throughput is greatly reduced, because a large amount of pipeline internal volume is occupied by impurity solid matter, needs to increase support density to certain Level, with the most on-stream offer coal floatation.
The freezing point of water is 0 DEG C, this make it impossible to use in the winter time containing hydromagnetite suspension as mounting medium for The relaying pipeline transportation of coal.But, for most of users, the maximum demand to solid fuel is in the winter time;Similar Ground, negative temperature exacerbates owing in railcar and outdoor pipeline, the height of coal freezes the railway transportation continuous band volume output caused (uninterrupted coil delivery) problem.
Summary of the invention
It is an object of the invention to reduce power strength and improve productivity, predigested running also improves whole mining and generating system The reliability of system, it is to avoid the solid fuel loss of whole technology line, and eliminate some intermediary element of this technology line (intermediate elements), improves the user performance of the fossil coal being delivered to destination, and the use increasing coal is abundant Property, transport channel hitless operation is provided in the winter time, and reduces whole mining and the electricity generation system adverse effect to environment.
At the ore dressing fossil fuel proposed and it is transported in the method for client by pipeline transportation subsequently, by producing now It is sieved into several grade, additionally product on grinding screen by tcrude ore, subsequently by the product pulverized and a part from powder grain A part of initial ore submergence together of obtaining of level in a liquid, the density of described liquid fossil fuel and barren rock density it Between, grind and separate the fossil fuel in described liquid and barren rock, subsequently owing to wafing in the liquid medium of display higher density Float and selected product is transported to ground, in same natural heavy-fluid body stream, selected fossil fuel is transported to mesh subsequently Ground, mounting medium regenerates and returns fossil fuel production scene, here, parallel, by described mounting medium from barren rock surface Remove, and use the water-bearing media with dissolution of minerals salt, or non-aqueous volatilised liq, or liquid gas is being changed as density value Natural liquid between stone fuel and the density of barren rock carries out other flotation to a part of finished product product.
The selection of weight fluid composition and mounting medium renovation process is depended on the kind of fossil fuel, particular customer and is somebody's turn to do The weather conditions of method.
Mainly due to carrying out ore dressing process near next-door neighbour mining face, the ore dressing of fossil fuel (particularly coal), subsequently Making to be transported to client in aforementioned manners causes the total power consumption of this winning equipment to be greatly reduced, and a large amount of owing to being no longer necessary to transfer Barren rock great distances, more need not clear up the hillock of mine areas adjacent, the adverse effect of environment significantly reduced.Should The mine tailing of underground beneficiation method is placed in discarded space and not only avoid subsiding and adjoint in region, stope, underground of ground The irremediable destruction of all items, and provide free filler for these mining sites, therefore, it can control The geomechanics process that overlying rock moves.
In density liquid medium between coal and the density of barren rock grind mining material, in the medium separate coal and Barren rock, in identical heavy fuel, ore dressing deep to fossil fuel can avoid the further destruction to coal cinder subsequently, it is not necessary to enters One step reduces size.This save mode ground not only facilitates reduction energy consumption, but also is significantly increased without duff The yield of the coal of valuable rank, thus improve the quality of product.The coal of methane, the most congealable load is contained with utilizing a part Body combination of media, being greatly reduced of pipeline transportation power consumption, retain the initial chi of material by pipelined most possibly Very little, the method proposed can reduce the cost of the solid fuel being supplied to each client, and improve the main consumption of coal simultaneously Performance.
Therefore, the main notable feature of the present invention is substantially mutually related, and the purpose of the present invention is only by this The combination of a little features realizes.Patent is not found with the retrieval of document or technically class similar to the technical scheme proposed As method, described technical scheme obtains the key feature of described notable feature.
Accompanying drawing explanation
The flow chart of Fig. 1 shows the subsurface processes process of the present invention.
The flow chart of Fig. 2 shows the resistance to high underground ore dressing being selectively dried the powdered substance separated.
The flow chart of Fig. 3 shows combines from opencut that conveying is block and powder coal, during the user of wherein said fuel Thermo-power station.
The flow chart of Fig. 4 a and Fig. 4 b shows the transport of the powder coal of the inventive method.
The flow chart of Fig. 5 showed in cold period, such as winter, is concentrated by coal and transports to user.
The flow chart of Fig. 6 showed in warm period, such as summer, is concentrated by coal and transports to user.
The flow chart of Fig. 7 shows under moderately low air themperature, or when at permafrost zone underground coal mining, is concentrated by coal And transport to user.
The flow chart of Fig. 8 shows only use hydraulic machinery process, extracts ore dressing from water-salting liquid with fresh form and produces Thing.
The flow chart of Fig. 9 shows in the geographic area with hot arid climate, when using natural heat during the course Time, the beneficiation method of the present invention.
The flow chart of Figure 10 shows in mining the most in the open and underground mining, loads in high pressure vertical transport pipeline Coal separation in bulk.
The flow chart of Figure 11 shows when loading coal from the deepest colliery, the lifting of combination and ore dressing process.
The flow chart of Figure 12 shows ore dressing-transportation, a combination thereof underground coal separation and subsequently will in the vertical pipeline Coal transports to earth's surface.
The flow chart of Figure 13 shows for the transportation system by solid fuel supply to steam power plant.
Figure 14 shows computing formula.
Detailed Description Of The Invention
The method proposed is implemented by being carried out continuously following operation:
-by initial mineral matter screening, additionally pulverize excessive, the block and coal of bulk, subsequently prepared material is divided Level, for further integrated treatment;
-initiation material part is dried ore dressing, it is not necessary to pulverizing additionally, and subsequently the barren rock of separation is placed in useless Abandon in space;
-in heavy water-salt medium, the feedstock portions that dry method can not be used to efficiently separate is carried out wet separation ore deposit;
-in non-aqueous volatility heavy-fluid body, the raw material powdery part that can not efficiently separate in heavy water-salt medium is entered Row wet separation ore deposit;
-in density liquid between coal and the density of barren rock, needs are additionally subtracted undersized material and carry out wet grinding Mill, hygroscopic water is from coal and barren rock the most in the medium;
-after packing material surface removes heavy-fluid body, wet separation ore deposit refuse is placed in useless mining space;
-preparation is for being transported to the coal on ground;
-in the shaft by direct flotation by coal from coal mine lifting to ground;
-flow through pipeline by liquid coal is transported to destination;
-mounting medium regenerates and returns to coal production scene.
Particularly from the perspective of technology novelty, from the following each several part showing integrated ore dressing-transporting equipment Accompanying drawing can be more clearly understood that the principle of the present invention.
Embodiment 1
Fig. 1 shows that needs additionally subtract the subsurface processes process of undersized initial rock part under deep mining condition Flow chart, wherein said rock kept fully being heated by internal heat in the whole year, and unrelated with weather conditions, and was produced Coal for power plant.
This part is separated by screening and needs additionally to reduce size and be full of with the initial rock improving barren rock separation Grinding in the cylinder 1 of liquid, the density of described liquid is between fossil fuel and the density of barren rock.Described cylinder is following of closing Ring operates, there are three product dense media hydrocyclones (three-product heavy-media hydrocyclone) 2.
Liquid represents that density is 1.48g/cm3The aqueous solution of calcium nitrate/zinc chloride mixture.
Through the product of ore dressing, leaving hydrocyclone 2 and be still suspended in weight water-bearing media, first it take product to well The end, then by pump 3 and ground pump station (not shown), or if appropriate, by gravity, coal is transported to destination (power plant).
The solid fuel of (under-opened) that do not splits during wet lapping divides from hydraulic machinery with the aggregation of barren rock Second section from device is discharged, and sends in cylinder 1 for grinding further;The barren rock separated from this techniqueflow is from cold by outside But the conical section of the hydraulic machinery separator of agent cooling (this causes liquid, aqueous density to increase) is discharged, and sends into filter centrifugation Device 4 is used for being dehydrated.
True tailings after dehydration is carried out by belt-type vacuum filter 5 with non-aqueous volatile liquid (such as acetone) Back flushing, and be used for filling underground and discard space 6.
After being filled up completely with discarded space 6 with wet filler, block this space, and connect the suction side of compressor 7, pump out From the steam of the low boiling non-aqueous liquid of the surface evaporation of packing material under the effect of internal heat.
The organic steam pressurizeed by compressor 7 is liquefied in compressor 8.The Volatile non-aqueous liquid that will so regenerate Return for cleaning by the true tailings of liquid, aqueous dipping.
The refuse obtained is the mixture of organic liquid and water-salt medium, is steamed by described refuse feeding rectifying column 9 Evaporate, by the boiling part of rectifying column described in hot water heating 9, take away pressurization and the condensation heat of the steam of liquefaction in compressor 8.
Described distillation this mixture is divided into initial weight liquid, aqueous (returning it to ore dressing process) and regeneration non- Aqueous organic volatile liquid, backs into the flushing ore dressing of refuse for impregnating residual aqueous liquor phase.
Coal be transported to the ore dressing of power plant by aqueous liquid stream after is carried out similar process, and difference is to carry out with water Rinse rather than carry out with non-aqueous organic volatile liquid.
To this end, will be divided with liquid-carrier by the fossil fuel of pipeline transportation by hydraulic machinery first by sedimentator 10 From, then rinse in the adverse current of hot water on belt-type vacuum filter 11, with heated air drying, pulverize, and deliver to power plant's stove For burning.
The waste water of the typically aqueous solution of the mineral salt mixture of dilution produced by flushing is evaporated in evaporimeter 12, Described evaporimeter 12 uses exhaust steam (working media of power plant steam turbine thermodynamic cycle, solid in described thermodynamic cycle Fuel combustion thermal transition is electric power) or other waste heat (being such as emitted into the used heat of the waste gas of air) heating.Using useless steaming In the case of vapour, the condensate liquid 12 formed in evaporimeter returns in power plant steam boiler, is used further to produce high-pressure work and steams Vapour.
The indirect steam carrying out self-evaporating solution enters condenser 13 from evaporimeter 12, and is transformed into condensate liquid, as with The heat flush water of remaining aqueous-salting liquid stayed after back flushing solid fuel removing processes in sedimentator 10 returns Return.
The solution being evaporated to initial density in evaporimeter 12 is produced in solid fuel dehydration with in sedimentator 10 Raw centrifugate (centrifuge centrate) mixing, and use pump 14 (only showing such pump in figure) to return to Solid fuel produces and the place of ore dressing.
Embodiment 2
Fig. 2 shows the flow chart of the underground ore dressing of flour, and resistance to high being selectively dried of described flour separates.Due to The impact of high dispersive material is increased by water-salt medium rheological behavior, processes this part material and lead in the aqueous solution of mineral salt Cause separative efficiency reduces, and the high humility of pasty state dressing product causes the consumption relevant to the discharge of moisture-free coal and dry true tailings The increase of electricity.
In this case, density liquid argon between fossil fuel and barren rock density, non-aqueous cryogenic liquid are used As separating medium.The boiling point of this liquid is the lowest, owing to contacting with environment, and the irreversibly boiling of remaining liquid phase, thus dry The discharge of dry dressing product is carried out automatically.
To this end, powdery raw ore coal originally is sent into recovery cool exchanger 3, the cold exchange of described recovery from feed bin 1 by door 2 Device 3 is by cooling down for the low boiling cooling agent of preliminary cooling.Cryogenic temperature (cryogenic will be cooled in this cooler Temperature) material loads in blender 4, uses liquid air stirring material in blender 4.Liquid will be suspended in empty Mineral matter in gas is from the grinding machine 5 being also filled with liquid air sent into by blender 4.
Material powder is broken into superfines, is then sent to the sieve bend 6 sealed, wrings dry for hydraulic machinery, and Drier 7 make it finally not have liquid air by dry.Use pump 9 will to divide from the material pulverized on sealing sieve bend 6 From liquid air return to blender 4 from collector 8, and the fine-grained mixture of the mineral of depolymerization will be pulverized in grinding machine 5 It is divided in ultra clean coal concentrate, and in separator 10, true tailings is full of the density density (1.34g/cm in target components3) and Density (the 2.65g/cm of barren rock3Low temperature heavy-fluid body between).For coal ore dressing, this cryogenic liquid be density be 1.40g/cm3 Liquid Argon, freezing point is-189.3 DEG C.
The density deficiency of this liquid thinks fossil fuel (such as anthracite and the pyroschist) ore dressing of higher density.At this In the case of Zhong, by liquid krypton (density 2.4g/cm3) mix with Liquid Argon.
In order to argon is maintained at liquid, cold shut heat channel 11 is installed separator 10, as the Dewar of filling liquid air Flat.In the big mining degree of depth, liquid air boiling point is significantly higher than-189.3 DEG C.Liquid argon can not be attached in the value of underground air pressure Closely freeze, which ensure that and down below ore dressing process holds it in liquid.If carrying out under mining conditions in the open separating Journey, is arranged on the cold shut heat channel of open coal mine equipped with controlling choke valve, and liquid air boiling under superatmospheric.
Ore dressing product hydraulic machinery is wrung dry by the sieve bend 12 sealed liquid argon, liquid argon is taken out of separator it Outward.Last remaining argon is finally removed by the mine tailing surface on evaporator concentrate and drier 13.Then these are completely dried But perishing solid ore dressing product sends into cool exchanger (cold exchanger) 14, cool exchanger 14 is cold by gaseous oxygen Coagulate heat or other are for by the cold cryogenic agent heating being delivered to initial rock from ore dressing product.Pump 15 is used to keep this refrigerant Circulation, it is sent into drier 7 from collector 16, and delivers to further regenerate cool exchanger 3, at regeneration cool exchanger by pump 15 In 3, the boiling heat of this low-boiling point liquid is from the flowing of the solid raw material for processing.
Additionally, be dried ore dressing product (its cold be passed to following regeneration cold switching equipment (not shown)), here it Temperature be slowly increased to the temperature of surrounding air, and delivered to the destination of each of which by Mine haul: finality Mining packing material of making, and the transport of ultra-clean cleaned coal is to mine hoist, is drained into ground.
The argon steam separated from ore dressing product in drier 13 being delivered to condenser 17 liquefy, condenser 17 is expressed as also Enter to fill the worm pipe that the Dewar of boiling liquid air is flat.So the liquid argon of regeneration is returned separator 10.
The liquid argon separated from ore dressing product on sieve bend 12 is collected in the collection vessel 18, and is returned to by pump 19 Same separator 10.
Carry this ultra-clean cleaned coal by floating to carry out together with lumped coal, it is also possible to individually carry out.These select by Two following examples represent.In this case, lumped coal is methane carrier.Therefore, adjoint will gathering coal carry Methane transport is greatly improved the caloric value of this solid fuel to power plant, and contributes to protecting atmospheric ozone layer.
In vertical pipeline, by buoyancy, material and the powdery coal of bulk are transported to ground.
According to local condition, this conveying technique can jointly carry and carry respectively.
Embodiment 3
Fig. 3 shows when the user of solid fuel is thermo-power station, bulk and powdery coal are delivered to jointly from colliery The basic technical scheme on ground.
Separator 1 becomes bulk material by being delivered to the coal grading in shaft bottom from coal face in main flow and comprises small coal And the duff of all dusty fractions.
By sending into the feed screw 2 being equipped with heat exchange chuck from block and the isolated duff of coarse coal, with extruding Mould 3 extrudes.Appropriate pitch is introduced in feed screw 2 and strengthens, as adhesion additive, the list being made up of duff Block, its cylinder being shaped as being similar to the piston of hydraulic set.To be used for heating before extrusion the steam of coal mixtures with pitch Send in its heat exchange chuck.
In the load chamber 4 of the Load System that batches of lumped coal and each coal cinder are alternately disposed in transport line 5 so that Coal " piston " is with batches of dumpable coal cinder mixture alternately.The most alternately empty load chamber 4, fill it with liquid , described liquid constitute whole transportation technology working media, be density be 1.42g/cm3Calcium nitrate the aqueous solution (coal Density is 1.39g/cm3)。
This liquid discharge portion is collected in waste fluid container 6, and alternately fills up load chamber 4 with the content of pipeline 5, After coal loading, use cock 7 and the controlled system closing valve 8.Therefore, coal floats to ground from colliery, is then taking With the fluid of water-bearing media flows to destination.Produce described by using pump 8 to supply liquid jet from waste fluid container 6 Liquid-carrier flowing in the horizontal component of pipeline 5.
But (, in the case of coal bed of developing mountain areas, the energy using described hydrotransport based on gravity operation is excellent Gesture is much higher, and it is without producing the artificial stream of carrier liquid in described transport line).
Separate being delivered to the coal of steam power plant with the carrier liquid hydraulic machinery on separator 10, then with on separator 11 Running water rinse, and cross and be loaded onto belt-type vacuum filter 12, the most again with the water washing of counter-flow pattern, finally extrude remnants Washings, and use hot-air or other heat transport mediums to be dried to produce dusty fuel before starting to grind the former.
The pulverizing of coal is carried out in closed ball milling machine 13.The methane discharged in this process and other fuel gas enter Enter pipeline 14 and be transported to together in the boiler of steam power plant with coal.
The remaining discarded object staying the coal on vibratory sieve (shaker) 10 is gathered in collector 15, and coal is shaking after rinsing The flushing water stayed on dynamic sieve 11, and be introduced directly in collector 16 from the final filtrate of belt-type vacuum filter 12, make It is directed in vapo(u)rization system 18 be evaporated at this by these process fluids with pump 17.
This flushing evaporation of water is that the condenser heat of the bled steam of the turbine being left steam power plant by use is realized, institute State the working media that steam is the thermodynamic cycle that coal combustion hot-cast socket becomes electric energy.Therefore, the steam in vapo(u)rization system 18 is raw The intertubular space becoming pipe forms condensate liquid, flows downwardly in collector 19, and uses pump 20 to be again directed to the steam of steam power plant In boiler, in described steam boiler, condensate liquid is treated to high-pressure work steam again, and be directed to steam turbine for Expanding, close in this way, working media circulates in heat energy is converted to the circulation of electric energy.
The water vapour stayed after flushing water evaporation in vapo(u)rization system 18 condenses and with heat flush water in condenser 21 Form returns in vibratory sieve 11 and belt-type vacuum filter 12 to rinse coal.
Its initial density 1.42g/cm it is evaporated in vapo(u)rization system 183Aqueous salt solution in collector 15 with mixed Remaining discharge stream mixing after coal dewatering in clutch 10.The mixture obtained is regenerate completely liquid, aqueous, and density exceedes coal Density, by pump 22, described mixture is returned in container 6, arrive coal initial " loaded " position.
When individually coal being delivered to ground, can in vertical pipeline conveying powdered material, only then use Water for the purpose is transported to user as heavy fluid in pipeline.
Fig. 4 a and 4b shows the process chart of the change programme that fuel is delivered to its user from colliery.
Embodiment 4
Station, shaft bottom in blender 1 mixes initial dry powdery coal (Fig. 4 a) and adhesive (5-7% of coal weight). Adhesive can include from close dish 2 (being heated by external heat exchanger) supply cracked residue (cracked residue), Tar or other oil-or asphaltic base hydrocarbon material, or other combustable organic adhesives, such as sulphite-ol are steamed Evaporate device, technical grade lignosulphonates, various wood gum, the syrupy shape waste material of sugar and wide in briquet (coal briquetting) The caramel (molasses) of general use.And, or in the heat exchange chuck of this mixing arrangement, add heat exchanging agent or use electric heating Coil pipe adds hot mixt.
Hot mixt (80-90 DEG C) is inserted in the extrusion die 3 and 4 being equipped with two kinds of stamping machine, and squeeze Two pressing molds of compression mould 3 and 4 represent that internal diameter corresponds to the cylinder of the internal diameter of the pipeline of hydrotransport system.
Extrusion die 3 is equipped with the stamping machine of T-shaped cross section.The external diameter of its newel is close to the glass being shaped as upward The internal diameter of the central axial cavity of another stamping machine of cup (upturned glass), this belongs to the second extrusion die 4.This In, insert the glass bottom thickness in the second extrusion die 4 and increase, to guarantee the Cylindorical rod made with the axle along the first blank The degree of depth in hole is compared, by less for the vertical dimension of the Axial Circular Cylinder protrusion of the second blank formed.
At high intensity pressure (10-30MN/m2) extruding under, in the first extrusion die 3 formed goods have heavy wall circle The shape of cylinder glass, the product that the second extrusion die 4 generates then looks like with thick cap and the mushroom of short petiole.
For the two blank being assembled into open tubular column plug-like block, outside the cylindrical bosses of the blank with T-shaped cross section Side, and the annular rear surface of the cap of described mushroom product all coated tekite oil base hydrocarbon material, or Asphaltic base hydrocarbon material, inserts one in another, by waterpower extrusion die 5 by they squeezed tight one Rise.
After this stickum finally solidifies, formed by coal system from the said two blank of shaping extrusion die 3 and 4 The hollow cylinder become.Owing to external diameter is close to the internal diameter of transport line, it looks like the piston in hydraulic system.
Use tower-like rotating gate device (rotary lockage device) 6 can will be squeezed into the coal of hollow heavy wall block Load in vertical water column, and complete mechanical and the high efficiency of loading process can be realized.Cylinder is loaded rotating along its vertical axis During, first, can be from 7 successive the most out cylindrical drum unit of transport line, after hollow coal cinder floats, current Can pour in transport line 7.This process complies fully with the lower base of cross section, hole and erect riser.Flow from each unit The current gone out converge in collector 8, centrifugal pump 9 be pumped to the horizontal component of transport line 7.Coal cinder is situated between at the carrier of flowing In matter floating, just as towards timber floating in the river of destination.
Meanwhile, continuous hollow coal cinder inserts the filling drum unit having emptied water.It is continuously added to coal cinder, adds one by one Enter, have coal cinder in each coherent drum unit of transport line 7 bottom, enter afterwards in vertical water column.So, machinery is carried out Working continuously of lock.
Therefore, in vertical water column, gradually form the solid grain of the movement constantly formed by hollow coal column plug.Above-mentioned plunger From vertical water column float up entrance transport line 7 horizontal component, these cylinders of formation as garland each other at end Compact siro spinning technology.
Then, due to the current produced in this part of transportation system from water pump 9, the drift that cylinder type hollow coal cinder is formed Floating chain can float to use coal point: steam power plant, or local resident's family-use solid fuel supply centre.
In transport line 7 exit, roller-way 10 (showing side view) is installed, again fills and will deliver to the coal of thermo-power station Cylinder, to belt-type vacuum filter 11, also tentatively discharges water from their surface, and they are transmitted by water.
Then, belt-type vacuum filter 11 carries out other coal dewatering program, and in filter bag decline, at coal Before transmission cylinder falls, the residual water on the surface staying the coal on transmission cylinder will finally be dried up by hot gas.From coal cinder abjection Water is gathered in collector 12, is delivered to external user to use further by pump 13.
In the stove of thermo-power station before burning, dry coal cinder is pulverized or grinds, or by circular saw transverse cuts Become the briquette of washer-shaped for supplying house coal (will act as domestic fuel) for people.
If promote coal (such as, tunnel in mine and clear up) with being not required to organizationally efficient rate, vertical water column is filled coal The unit of block can be carried out in easier structure.As shown in Figure 4 b, enclosed compartment 1 is divided into both wings, and they are by common Revolving door 3 and the vertical component UNICOM of transport line 2.
Easy padding is as described below.After the floating rising of water that continuous print coal cinder is released by tap 4 transfers out, Empty enclosed compartment 1, insert next coal cylinder afterwards, seal charging hole 5, and open tap 6, so that current fill up closing The space that in compartment, coal cinder is unfilled.Opposite direction rotates door 3 afterwards, has previously inserted the hollow coal cinder in enclosed compartment 1 the most permissible Enter the vertical component in transport channel 2.Meanwhile, and erect riser second (symmetrical) keeping apart by same door 3 Enclosed compartment 1 is then evacuated, and fills next coal cinder.
By this balance operated in anti-phase of enclosed compartment 1, revolving door 3 direction is persistently changed, and hollow coal cinder is the most one by one Earth's surface is floated to from the vertical water column of mine.They are drifted about to mesh by the horizontal component (not shown) of transport line afterwards Ground.
In enclosed compartment 1, the water of output is gathered in collector 7, centrifugal pump 8 be extracted into the horizontal component of transport line, continue And it is pumped into ground.
But, as described in Example 4, drifted about by buoyancy in-line and various coals are transported to user, this side Method only could be possible in summer.
In the winter time, especially under the conditions of strip mining transformation, the ore dressing of coal and the user that delivers coal, by different ways, put defrosting Agent, in ice, increases the buoyancy transporting goods, simultaneously isolation goods outer surface so that it is can not contact conveying medium.
The techniqueflow of this technique is as shown in Figure 5.
Embodiment 5
The sillar shipped from mining site crushes crushing machine 1, then dedusting in vibrator 2.By be used for processing with this Raw material prepared by mode humidifies with water in mixing drum 3, then forwards in unsettled leakage sieve 4, via cold air fall blown below Temperature, freezes layers of ice at the material surface separated.Ice layer thickness is by adding the water yield in mixing drum 3 and supplying unsettled leakage sieve 4 Water aerosol amount regulation.By special sprayer, above-mentioned aerosol is joined in cold air stream, with thin spraying water droplet Humidify the surface of the mineral grain promoted in cold air stream equably.Thus, each mineral grain is the most gradually by firm ice Layer cladding, completely isolated mineral material, it is to avoid its subsequently with the contact of water-salt medium.
The sillar being coated with by ice sheet is layered as true tailings and cleaned coal, and described layering is carried out in wheeled separator 5, weight Water-salt medium fills described separator, and described heavy water-salt medium is the molten of water-soluble mineral salts such as calcium nitrate or zinc chloride etc. Liquid.
By in wheeled separator 5 discharge useless sillar dehydration separator 6 in be dehydrated, by be blown into hot-air from Material in centrifugal filter 7 finally removes remaining liquid phase.In this stage, cover the ice-out of the surface of solids, occur melting Water, and the dilution of above-mentioned water.
Stay the coal after the dedusting floated in water-salting liquid and in freeze proof heavy-fluid body, transfer to its destination by pipeline 8. Remove liquid-carrier by hydraulic machinery to be made with for barren rock dehydration with finally also using from the remaining liquid phase of solid fuel extrusion Identical equipment-draining separator 9 and centrifugal filter 10, be blown into hot-air and melt the ice.
From dressing product discharge waste water and be collected in refrigerator 11, the solution of dilute with water is cooled to it and starts to freeze The temperature of knot.The floating rising of young ice produced, and by water-salting liquid, it is removed from cleaned coal top layer equipped with perforation spoon Carry out in lifting runner, in described perforation spoon, use water-removing rinsing young ice.
The ice discharged from refrigerator 11 melts in smelting furnace 12, and the thawing water obtained is drawn back by pump 13 with at mixing drum Initial feed, and the layers of ice that freezes in vibrator 4 is humidified on surface in 3.
The heavy water regenerated completely in refrigerator 11-salt liquid returns to wheeled separator 5, is re-used for separation and forms The just mineral of mixture.
In summer, owing to not having the cold conditions in winter, ice is coated with the material pulverized and coal is produced extra buoyancy Acting on and being realized by low-density fusible hydrocarbon porous covering, described porous covering is reliably separated mining product The surface of mineral constituent so that it is do not contact with water or water-salting liquid.But, replacing in the case of coal with hydrocarbon, this Kind of method makes coal cinder produce buoyancy, and it may not only be applied to transport coal in high concentration water-salt medium it can also be used to mineral in water Salt weak solution even will be coated with the blocks of solid fuel transport of organic coating thing to destination in current.
The techniqueflow of this transportation technology is as shown in Figure 6.
Embodiment 6
Exploitation selected coal are transported to shaft bottom from stope, crushing dedusting on vibratory sieve 2 in crushing machine 1.
Meanwhile, the thick foam of preparation in the sealing saturator 3 heated by external heat transfer agent.Modified by various thickeners Non-aqueous hydrocarbon ils liquid, such as high viscosity heavy oil, or used oil (or transformer oil) is all the most saturated by some gases, such as, Compressed air, nitrogen, carbon dioxide, Coal mine methane or other paraffinic gaseous state aliphatic hydrocarbons.For controlling the stream of these oil Sex change, it is possible to use some hydrocarbon polymer, and the growth of unsaturated lipid, such as, polyisobutene, polyethylene alkyl ether, poly- Alkyl methacrylate, polyalkyl acrylate are as thickener.According to weather circumstance condition, this strong composition, foam is also Can prepare based on other easy fusing hydrocarbon or their mixture with suitable fusion temperature.It includes that paraffin, stearic acid are sweet Grease, pitch, tar, wax, margarine or grease article refuse, various syrup, oleoresin and converted products thereof, face cream or Other resins, fat and mineral oil, vegetable oil or animal oil.After heating, these hydrocarbon can be pressed into from outside by some gases, except this Outside, during formation of foam, owing to chemical reaction is along with strong gas release, in its overall volume, form gas Bubble.In this case, multiple can decomposition is released into the chemically unstable flour of gas phase introduces in these compositions, Such as, sodium acid carbonate and citric acid interact and produce carbon dioxide, or such thermally labile complex compound such as inclusion compound (clatrate compounds), such as methane hydrate and other alkane irreversible analyte under low-grade fever situation.
For increasing the stability of the foam of preparation, surfactant, described liquid can be it is possible to additionally incorporate in the liquid hydrocarbon being heated State hydrocarbon keeps under high pressure in saturator.Described surfactant is pine wood oil, liquid soap, anion surfactant (sulfonol), enuatrol or tripolyphosphate, aniline, multiple lower alcohol and organic acid, and mequinol, these are all high Effect foaming agent, it can be ensured that stability that the foam of formation is higher and thickness, and increase its viscosity.
On vibratory sieve 2 after dedusting, vibratory sieve is not passed through in the inclination that coal cinder feeding is blown into cold air from bottom In (inclined non-passing vibratory sieve) 4.Meanwhile, will be squeezed out by the excess gas pressure in saturator 3 The liquid that foams is injected in the cold-producing medium stream of coal cinder surface flow.This has the spraying arranged along its length by use Device distribution spraying collector realize, just as people before scraping beard from cosmetic container uses froth bed.
Therefore, the coal of colder (relative to foamed set temperature) is uniformly coated by viscous foam that is close and that be prone to solidification Block, described viscous foam gradually becomes solidification porous float stone shape coating continuously.
The material coated by this solid porous coating is reloaded in blender 5 together with mine water.Obtain is thick Slurry is extruded in vertical tube 7 by piston tube 6.Coal floats to earth's surface, then passes through horizontal main line 8 in current with capsule form Floating, arrive thermo-power station.
First coal cinder fortune arrived at the destination is dehydrated on vibratory sieve 9, then with from inside on centrifugal filter 10 The hot gas being blown into will residue water extrusion.So, butyrous porous coating covers coal melt block, and the filtrate of the discharge obtained is liquid Hydrocarbon and the mechanical impurity of the water from coal extrusion.This techniqueflow enters into electrostatic separator 11, here diphasic liquids system Layering becomes two parts.Light fraction represents the liquid hydrocarbon in the stove being transported to thermo-power station boiler for burning, and supplies water to Neighbouring industry or agricultural user, or it is discharged into nearest cistern.
Described porous covering protects the way processing raw material, in the mineral constituent of heavy water-salt medium mineral Before layering, also can Successful utilization to the coating of the fusible watertight cover on the surface of coal and tailings material.
It addition, under the conditions of in the winter time, air is in moderate low temperature, or Permafrost Area underground coal mining, can be based on water system Standby this foam.
The techniqueflow of this technique is as shown in Figure 7.
Embodiment 7
Cold coal cinder is transported in pulverizer 1 pulverize from mining site via belt conveyer, then removes thin on vibratory sieve 2 After particle, send into and obstructed sieve 3 to smear by close viscosity water bubble.
Covering the foam of coal cinder by porous ice to remove in saturator 4, saturator 4 is equipped with and is added by external heat transfer agent The heat exchange chuck of heat, makes water saturation with carbon dioxide the most at an elevated pressure.Water in saturator 4 adds liquid Soap and pine wood oil are respectively as foaming agent and foam stability additive.
Porous ice sheet is become to be by ejecting from being arranged in the obstructed collecting-distributing device sieving under 3 in coal cinder shallow freezing Dense flat foam realizes.In this way porous ice sheet start coal top layer formed, with the help of air cushion support to Lower movement, the most thickening.
Hover over the coal above obstructed 3 outer surfaces that sieve and maintain state by the cold air blown from below, thus cold Air stream can uniformly blow over each coal cinder from each side.
The coal cinder being overmolding to capsule shape by porous ice sheet swims in the mine water in blender 5, uses pump 6 to be shipped for using Family, before this by the inclined sections of Trunk Line 7, the most horizontal sections.Owing to the water in pipeline 7 flows continuously, this is the most certain In degree, even under frosting environment, also maintain the non-frozen state of supercooling (less than zero degrees celsius).If Trunk Line 7 Some sections external air temperatures are more than about 0 DEG C, and interior temperature can slowly rise, and ice sheet slowly melts, and floating coal cinder can be sudden and violent Expose, and cause water transports the buoyancy loss of raw material, and this situation can by time on purpose initial at coal cinder table Face is freezed porous ice sheet and is prevented.The thickness of coating should exceed the minimum thickness needed for the coal cinder keeping transporting floats.
After arriving at, vibrator 8 make coal dewatering remove most transport water, finally in belt vacuum mistake Filter 9 extrudes residual water from its frozen surface.And due to the heat exchange with the hot spot installing dehydration equipment, the porous of coal cinder Ice coating is acutely melted, the water simultaneously melted by filter-cloth filtering.At the deferent segment of belt-type vacuum filter 9, coal cinder is by hot gas It is dried, is then shipped for user continuously with drying regime, as the colliery by being transported to destination under continuous flowing water transportation method Finished product.
The filter liquor that coal cinder stays, and effluent, and melt the water that flows down from coal cinder surface and be gathered in static separation In device 10.In separator, two phase flow will be separated into lower phase-water, and will be transported the upper phase burnt as coal-float Organic liquid, the water discharged then is transported to other users.
Therefore, the water of transport coal cinder is without returning again to this technique section start, without pipeline installation branch.It addition, except volume Outer fund input, also saves the energy ezpenditure that water pump is sent back to colliery.
Meanwhile, in some cases, when needs extract dressing product with fresh form from saline solution, make for this Use hydraulic machine method, regeneration can be realized on the mineral surfaces pulverized by replacing it, not be the heating power with complexity Learn, rheology and sanitation performance liquid, aqueous, and regenerate organic liquid by replacing water subsequently.
Legend 8 shows the different implementations of this technique.
Embodiment 8
Pulverize coal cinder in blender 1 with calcium nitrate aqueous solution (density 1,47g/sm3) mixing, then send with pump 2 Enter in hydrocyclone 3, in hydrocyclone 3, be irreversibly layered as light part (by the mineral that initial feed forms Finality ore deposit) and weight part (cleaned coal part).
Cleaned coal product is dehydrated in draining sieve 4.The blowdown stream discharged is gathered in collector 5, sends back to mix with pump 6 In clutch 1, mix with initial feed.
Then moist cleaned coal product is sent in centrifuge 7, additionally extrude liquid phase, then use in sealing vibratory sieve 8 The non-combustible organic liquid of physiological inertia (hexane and the mixture of dibromotetrafluoromethane) washes away calcium nitrate Ca (NO3)2The aqueous solution. The two-phase produced is discharged current send in hydrostatics separator 9.
Then the cleaned coal by true tailings with organic liquid wetting is sent into and is sealed vibratory sieve 10, washes removing with water non-aqueous The dipping of liquid phase is remaining.The two-phase blowdown stream discharged is sent in hydrostatics separator 11.
It follows that the cleaned coal product of feeding light water dipping uses further, true tailings is used for filling mining area, and Cleaned coal is sent into shaft bottom and then moves earth's surface to by mine hoist.
Immiscible liquid is separated in hydrostatics separator 9 and 11, is then returned in process cycles use them Place.Therefore, with pump 13, heavy water-salt medium is pumped in collector 5, from here heavy water-the salt regenerated completely is situated between with pump 6 Matter is sent in blender 1 and is mixed with initial feed, i.e. deliver to the section start of technological process.Machine washing will be had with pump 12 and pump 15 Wash liquid and water returns to sieve 8 and 10, for detergent product of coal respectively.
Therefore, not through any heating power technique, heavy water-salt medium used and non-aqueous organic liquid in Recognition Applied in Coal Preparation System Circulation almost completely encloses.This not only makes technological process save energy, and environmental protection, because in such a case, it is possible to Subsequently true tailings is filled in production zone in underground.
Meanwhile, if free natural heat energy can be used, in the area having hot dry climate, at technique stream Cheng Shang, in working cycles, it is contemplated that substantial amounts of solar energy, and the heat consumption problem in the water of use-salt medium recycling is just The most sharp-pointed.
Fig. 9 shows the technological design figure of transport process, and user is positioned at the place that height above sea level is higher, is transported by firmly pipeline transportation Deliver coal.
Embodiment 9
It is 1.366g/cm by density3Lumped coal send into mixing drum 2 from hopper 1, at this, it is stirred in conveying medium Moving up, above-mentioned medium is to be 1.368g/cm with pump 4 from the density that water storage container 3 imports3The mixed aqueous solution of calcium nitrate.
Along transport line 6, the aqueous mixtures formed in mixing drum 2 is delivered to geodesic curve (geodesic with piston pump 5 Mark) higher destination.
First, the major part of the coal cinder of conveying with described pumped (conveying) medium is separated by draining sieve 7, is then sent to belt Vacuum filter 8 carries out extruding the deep level of processing of liquid phase, carries with the fresh water countercurrent washing taken out from water storage container 10 by pump 9 The blocks of material.
So, lumped coal is washed out completely from the final residue thing of wet coal salting liquid, their surface humid zone There is fresh water.
Complete the final recovery of coal cinder during whole technological process converges with drying regime, unloading from belt-type vacuum filter 8 Before goods at once, by being moved through the end of strainer, it is dried with hot gas.In addition to blowing hot-air, the time by day, by force Strong solar radiation also contributes to the evaporation of coal cinder surface moisture.Therefore, go out with drying regime for goods in acceleration transportation Come, use equipped with the belt-type vacuum filter strengthening black filter bag.
The flushing water produced after countercurrent washing coal cinder is sent into force ventilation tower 12 from collector 11 and is rinsed operation.Machine Tool aeration tower 12 is installed above top layer condenser 13, and the condensate liquid generated then flow back into fresh water accumulator by chute 14 10.Water-the salting liquid of part evaporation is gathered in bottom force ventilation tower 12, flows through the outdoor fan-shaped water tank of inclination in direction, Chaoyang 15, enter pipeline 16 on the ground.It is directly sent to transport coal place by supplier.The aqueous solution can be reheated by the sun on the way, Arrive behind transport courses top, again can in the open in container for evaporation 17 under solar radiation re-evaporation.Here, pipeline 16 is led by height Thermometal is made, and is coated with black.Additionally, also have solar sail 18 internally installed, show as that there is specular surface Opening groove, focuses on the extra solar energy of pipeline 16 bottom.
Complete evaporation reaches the water-salting liquid of initial density and flows into water storage container 3 from container for evaporation 17, the most again It is sent in transport courses.
Meanwhile, aqueous mixtures is after hydrodynamics separation is transported to destination, and the water separated from coal-salt is transported Defeated medium opposite direction flows in water storage container 3, by being laid on main unloaded branch (the main idle of underground Branch) 9 it is transported to transport coal place by coal.
Therefore, in transport courses, not having any energy source of supply, in technological process, the circulation of conveying medium is almost Completely enclosed.Carefully close capital equipment and auxiliary equipment and high production rate standard, be used for increasing in this closed circuit The mineral salt of aqueous solution weight is not completely consumed, not to mention this transportation system is also any hydrocarbonization of irreversible consumption Compound auxiliary material.
After the ore dressing of underground, in the industrial chain that described way provides, prevailing traffic chain is liquid coal being placed in density higher than it In body, transport coal cinder by coal buoyancy wherein at top.
But, the tens of rice of the degree of depth (outdoor mine), hundreds of meters (underground mine) vertical shaft in load this loose coal cinder, Need to overcome the hydrostatic pressure of high heavy-fluid scapus.
Realize the technological design of this loading operation as shown in Figure 10.
Embodiment 10
This type of loose coal block operations is loaded as follows in high pressure line:
Arrive loose coal cinder from mining sites continuously, by closing door 1, in turn coal cinder is delivered to hydrostatics and promotes system Charging appliance each receiving chamber in, described lifting system for seal winze 2.
After on the left of loading, little staple shaft 2 is interior, the coal cinder of next part fully will merge with water-salt medium, and described medium is example As, carbonate (K2CO3) incorporate in water formed density be 1,412g/sm3The 40%-s' aqueous solution, and to load density be 0, 890g/sm3Aqueous mixtures initiation layer hydraulic oil minute surface on, molten with the aqueous phase of hydraulic oil liquid, the then lid of freight hatch Son 3 tightly pressure comes (closing under state, the lid of the left side little staple shaft hatch is pointed out) by graticule, then, it is not necessary to stop pouring into Oil, opens skycrane 4.
Skycrane 4 can fall down oil droplet before this rather than get rid of inner air, and this closes body is also to close shape State, and, by the oil pipe 5 with crane 6, the little staple shaft 2 of abundant pressurized starts to produce at hydraulic oil part (not shown) Compression hydraulic oil under raw pressure, described pressure exceedes the hydrostatic pressure that water-salting liquid cylinder in transport line 7 produces.Knot Really, return valve 8 supercharging, in this time, transport line 7 opens, and then, is suspended in next in little staple shaft 2 on potassium nitrate solution Part lumped coal, squeezes out in the vertical cylinder of this water-salt medium.Now, it is empty in little staple shaft 2, there is no next group Coal cinder, stops under elevated pressure entering hydraulic oil, starts crane 9, start these the non-aqueous nytrons getting rid of in gathered trough 10 Thing liquid.Pressure in the least staple shaft 2 starts to be gradually reduced, and is being not from inside, but is gradually increased from extraneous Pressure under, return valve 8 gradually return to primitive age position, reclose the heavy water in transport line 7-salt medium vertical cylinder Body.Thus, skycrane 4 restarts, and discharges the hydraulic oil in little staple shaft 2 with mine air.At this on-aqueous liquid Rejected program last, the lid 3 of the hatch of little staple shaft 2 reopens, and turns on closing door 1, and next group coal cinder is again introduced into connecing Receive indoor.
Loading while next group coal cinder on the left of little staple shaft 2, with the identical program of extruding coal cinder in transport line 7 with On the left of little staple shaft 2, in the little staple shaft 2 of anti-phase work, right side is carried out.Therefore, there is (smoothes out) in loader cycle, also reaches Transport by the continuous fluid of the buoyancy heavy water-salt medium from colliery by coal.
Come out to the lumped coal of top from mine, by the buoyancy in Alkitrate, be gathered in frangible " cap Son " shape pressure column 11 in, Trunk Line 12 will be transported to pattern of persistently drifting about in heavy water-salt conveying medium from here, from And it is transported to user further.
After transport raw material arrives at, the hydraulic machinery coming into effect scattered coal cinder and Alkitrate conveying medium divides From, the coal cinder finally extracted is the state being dried and demineralizing completely, then will be final by second pipeline 13 Water-the salt medium of regeneration is transported colliery back and is loaded the position of coal cinder.
In transport line 7 together with coal cinder, the hydraulic oil oil droplet being randomly derived, in pressure column 11 inner high voltage pipeline 7 This water-salt medium in there is buoyancy equally, on aqueous solution minute surface formed on-aqueous liquid 14.Weight can be assessed collecting During this oil, timing backs into colliery, is poured into the position of next group waterpower mixture.
Thus, heavy water-salt medium during water transport, and the circulation of the light hydrocarbon liquid blended with it makes It is finished row for the national games complete.
Use described method, compared with the known method that scatter mass structure coal loading is entered high voltage charge line, have much multiple Important process and economic advantages, described advantage is the important simplification of the constructive design of flow process, reduces energy charge, and high power improves Productivity, because reprinting into material in the working cylinder in this water conservancy equipment, does not use any mechanical part to increase it Diameter, to the rock-soil mechanics condition of the infrastructure to the exploitation of its size limitation vertical shaft, diameter dimension can successfully resist underground The high pressure of the degree of depth very deep in mining.
But the described program loading coal cinder in heavy water-salt medium cylinder is also required to energy, because oil part uses From the point of view of power driver, non-aqueous hydraulic liquid squeezes out minute surface.
At deep-well, especially, mining in super deep-well, mine air temperature is maintained at continuous high temperature level, therefore throughout the year Load coal cinder in heavy-fluid body in vertical shaft by temperature repetitive cycling in ore deposit, and to consume without any additional-energy.This Outward, even if directly transporting from the region in colliery, being transported to top, discharging from coal capsule (ballast) i.e. barren rock This coal cinder, compares with liquid used in hydrostatics lifting system, can be heavier, can not be floating at top, all stays Constantly development space is filled with drying regime in ore deposit.
This comprehensively promotes and extracts the technological design of flow process as shown in figure 11.
Embodiment 11
Braking door 2 is opened, and common lumped coal is loaded into the left wing loading brake apparatus 1.Load material after next batch extracts After material, door 2 is closed tightly, opens crane 3, and the solid block coal between closing at this puts into a flowing transport line, injects nothing Viscosity, easily gasifies, physical laziness, nonflammable, not the liquid of melt water, and density is between coal and barren rock.
When described liquid uses the hydrocarbon of the alkanes chain of fully fluorinated so-called perfluocarbon, or they Between mixture, its basic physical attribute is as follows:
Table 1
Title Chemical formula Density, g/sm3 Boiling point, DEG C
Perfluoromethane СF4 1.96 -128.0
Hexafluoroethane C2F6 1.85 -78.2
Perfluoropropane C3F8 1.48 -38.0
Perfluorocyclopropane C3F6 1.55 -30.0
Perfluorinated butane C4F10 1.63 -2.0
Freon C318 C4F8 1.72 -5.8
Perflenapent C5F12 1.62 29.3
Decafluorocyclopentane C5F10 1.72 22.4
From this, the density of each this evaporable on-aqueous liquid fully belongs to intermediate field, coal (1, 3…1,5g/sm3) and barren rock (2,5 ... 2,7g/sm3Between).Therefore, load the coal of this liquid, such as, Decafluorocyclopentane and The mixture of Freon C318, density is 1,72g/sm3, and boiling point is 18 DEG C), forward door 4 to behind tram, by vertical fortune Defeated pipeline 5 floats to ground from mine, but barren rock is poured into reception bucket-thickener 6.Here, tailing is at non-aqueous media Middle thickening.Then, moist barren rock loads in large-scale-dewaterer 7, and the cabinet of described dewaterer warm air in deep in mine adds Heat, no matter the meteorological condition on earth's surface how, and described warm air temperature keeps 45 throughout the year ... 55 DEG C.
Exchange through this heat, Decafluorocyclopentane and the mixture of Freon C318, be impregnated in tailing, boiling, shape The steam become rises to earth's surface by steam pipe 8, is provided with condenser 9 here, is cooled down by cold water stream (temperature is 14 DEG C).Knot Really, at this heat exchange equipment, carry out procedure body and closed the liquefaction process promoting and extracting circulation, and repeated to follow Ring, therefore, non-aqueous easy evaporation heavy-fluid body returns to transport line 5 again by condenser pipe 10.
For avoiding the mixture of Decafluorocyclopentane and Freon C318 to seethe with excitement, inject compared with this organic media relatively light, Immiscible, aqueous liquids, it is used for transporting water-salt medium.It not only pours pressure column 12 into, isolates transport line 5 top simultaneously Non-aqueous compression gas medium, keeps necessary height to prevent the boiling in vertical cylinder.
From the point of view of carrying, with this kind, the effect played with spacer medium, in this case, the solution of mineral salt melt water, especially Be for this prepare, be used for hydrostatics promote used by non-aqueous heavy-fluid body compare, be drop slightly low-density, such as, 40%- The potassium fluoride FeCl of s'3The aqueous solution, density is Isosorbide-5-Nitrae 2g/sm3
The processed coal cinder floated out from mine, accumulates on the minute surface of this water-salt medium, and then is situated between by this Matter is transported to destination further through Trunk Line 13.
Conveying medium returns in pressure column 12, is completed by the second pipeline 14.
Therefore, use two kinds of immiscible liquids as from mine hoisting and process coal cinder and extract with drying regime lifting The method of the type putting effect is feasible.
But, carry out underground, shallow place and open a mine work, and transport coal cinder on earth's surface, it is not necessary to contrast the rock with coal seam with The gap of surface temperature.
In this case, extract being dried and completely except the type of ore deposit state for packing space, underground coal separation and Vertical shaft is arrived by buoyancy the combined process on earth's surface, is required for a kind of condition, is i.e. transported the fortune of solid fuel by Trunk Line Defeated Media density, it is not necessary to, and the density of carried object matter is not can exceed that when hydrostatics promotes.
The basic condition of the simple and easy method of this coal separation-transport courses is as shown in figure 12.
Embodiment 12
Deliver to the common coal cinder of bulk of mine shafts well, be loaded into the heavy water-salt medium in the double-vane closing reprinting equipment 1, The most such as, dibasic potassium orthophosphate (dipotassium hydrogen phosphate K of 52%-s'2HPO4), at temperature 25 DEG C, density is equal to 1,56g/ sm3
After vacuum sealing door 2, starting crane 3, next group coal immerses water-salt medium, and mobile door 4 arrives appropriate location, Coal washing as a part of support materials swims in the surface of transport line 5.And class heavier in the mixed mineral of raw coal Type, then decline and immerse in bucket-thickener 6.
The program that tailing after coal separation being processed extracts from water-salt medium is by jet flow after closing shutter 7 Out, then, this tail material vibratory sieve 8 again is separated from heavy-fluid body.The current ejected then shunt away accumulation In container slot 9, by pump 10, water-salt medium again passes through transport line 5.
From final remaining water-salt medium, the program of discarded space tailing is filled in release, is by banding vacuum mistake The tailing in filter 11 produced coal separation carries out what countercurrent multistage washing realized, the lumped coal hot air seasoning finally come out, Then discarded space nearby is placed.
The aqueous solution of coal washing, i.e. potassium nitrate solution, accumulate in container slot 12, be drawn to earth's surface by pump 13 from here, By coal before pressure column 14 transports to destination, be used for reducing the density of conveying medium.
For reaching this purpose, before coal is put into Trunk Line 15, the close of conveying medium can be adjusted in blender 16 Degree.Then coal is shipped to user by the aqueous solution of low concentration, produces energy with this high-quality solid fuel.
At coal cinder burning point, extract the coal being dried and going completely ore deposit form from water-salting liquid, be by using this energy The used heat that amount system produces completes, and is always depending on the dispersion of air.But, therefore, conveying medium regenerates, and does not reaches The density of carrier, but the density of a kind of stationary water solution, a kind of heavy-fluid body of this solution conduct in transport line 5.Return to whole The operation on individual extraction-transportation technology flow process top completes in the second pipeline 17.
Dilution conveying medium concentration to a certain extent, not only reduces its viscosity, also reduces it at Trunk Line simultaneously Energy ezpenditure needed for transport solid fuel in 15, also prevent coal cinder and gets lodged in pipeline zigzag crook.
But, reduce the density of the water-salt medium aqueous solution of conveying medium in the Trunk Line as transport coal cinder, also to take Certainly water velocity in pipeline, and the granular size by cart-load of woods material.
The example of the transport of implemented below coal has reacted many details of this situation, as shown in figure 13.
Embodiment 13
Carrying out hard coal waterpower mixture (hydromix) (density of coal is 1,35g/sm3) transported, granular size is 15 ... 25mm, in blender 1 after dilution, add mine tailing flushing water, rinse underground coal by adverse current coal separation so that Media density It is 1,282g/sm3, thus in this stream, solid reaches 1:1 with liquid volume ratio.
The waterpower mixture being consequently formed, half is coal, and half is vehicle medium, by pump 2, by a diameter of 0.2 meter Transport line 3, rate of pumping is as the criterion with the buoyancy of scattered coal particle, and the formula (1) of 14 formula calculates with reference to the accompanying drawings.
Use this formula, first calculate the density ratio of waterpower component of mixture:
A=(ρsl)/ρl
Thus draw
A=(1350-1282)/1282=0.053
Then, owing to coal volume fraction in waterpower mixture is 0.5, in parantheses, numerical value is equal to:
1 0,053 × 0,5=0,9735
Being multiplied by gravity acceleration g and pipeline diameter D, the formula (2) of 14 formula takes acquired results the most with reference to the accompanying drawings Square root.
In pump flow, the density relationship of solid phase and liquid phase is:
1350:1282=1,053
Correspondingly, the cubic root of this numerical value is equal to the formula (3) of accompanying drawing 14 formula.
Now, in order to replace the value of COEFFICIENT K in above-mentioned formula, it is referred to the mutual pass of the granular size of display in form System:
Table 2
If the granular size of fortune coal is 15,0 ... 25mm, then coefficient value is Isosorbide-5-Nitrae 5.
Therefore, waterpower mixing logistics speed in the transport line of a diameter of 200mm should be:
V=1,45 × 1.0174 × 1,382=2,04M/sec
Now, we can calculate this transport line and transport the handling capacity of coal.
The cross-sectional area of the transport line of diameter 0.2m is:
S=π R2=3,14 × 0,12=0,0314 м2
Therefore, when Hydromix flow velocity is 2,04m/s, the volumetric throughput per second of transportation system is:
0,0314 × 2,04=0,064 м3/sec,
Or, per hour:
0,064 × 3600=230,6 м3/h
But, the only half of handling capacity is coal.Therefore, in this transport line, the volumetric throughput of coal is:
230,6 × 0,5=115,3 м3/h;
Recalculating mass flow, it is contemplated that the density of coal is 1350kg/m3, the pipeline of the annual diameter 200mm of passing through connects Reforwarding to the coal amount of user is:
115,3 × 1,35 × 24 × 365=1.363.547t/=1,36000000 ton/annual
But, it being different from the conventional method of known coal hydrotransport, described conventional method only transports duff to user, this The method that invention proposes finally provides a user with lumped coal rather than pasty state coal, lumped coal is separated not from conveying medium There is any technical difficulty.
For reaching this purpose, it is interior by solid and liquid that the waterpower mixture arrived at initially enters dehydration and vibration sieve 4 Hydraulic machinery separates.Therefore the liquid phase discharged from coal cinder accumulates in reception tank 5, and the solid material of preliminary hydro-extraction passes through the degree of depth Hydraulic machinery separates the water-salt conveying medium on filter centrifugation device 6 surface being retained in strong centrifugal force field of wringing dry, thus produces Filtrate also into reception tank 5, leave the discharge liquid of vibratory sieve 4 also into reception tank 5.
Trace water-the salt medium of the wet lumped coal remained on surface carried on banding vacuum filter 7 is washed away by fresh water adverse current, Then it is evaporated in the washings of groove 8 being delivered to evaporation equipment 10 with pump 9.
Wash out wet coal cinder from mineral salt remnants completely, before belt-type vacuum filter 7 declines, can drive at next-door neighbour's drum By hot air seasoning on dynamic band, and then entrance one crushing system, the most coal dust of drying enter into steam power dress The fire-box put burns.
Leave the pure water steam of evaporation equipment 10, condense in condenser 11, and the most incoming belt of hot water obtained In vacuum filter 7, enter coal cinder countercurrent washing circulation.
Dense water-the salting liquid of evaporation in evaporation equipment, builds up groove 12 by pump 13 from circulation and delivers to transport by arm Process top.
As a result, transportation cycle, water used in connection with-salt conveying medium, circulation completes, and result, correct in transportation Operation, the accessible operation of equipment, the inevitable of dipotassium hydrogen phosphate is run off, or other are used in this intrasystem mineral Salt, all near zero.
Therefore, this kind of method is used to provide solid fuel for thermo-power station, it is ensured that even if reducing any at the most pointed position Block, upset pipeline work structuring, inherently reduce and realize the various power source consumption of whole transportation, reduce waterpower and disappear Consumption so that ore dressing conveying medium washes out coal cinder never completely needs a small amount of waterpower.
Extraction-transport the synthetic method of this invention, produces and in energy production at coal, with known extraction and transportation technology phase Ratio, has in much technique, economically, and the advantage in ecology.Based on a kind of and multiple action of same liquid, as just Fuel grinds wet separation medium, and the separating medium that accurately coal extracts, by fuel flammable for ore dressing under the conditions of hydrostatics promotes Float to the static weight liquid on earth's surface from mine, be also without any transfer operation, simultaneously in the Trunk Line of unrestricted length Finished solid lumped coal fuel is delivered to the conveying medium of destination.
By combustible material uses various low melting points, the screening of low-density coating increase buoyancy for it.The latter does not only has Effect isolation transport, to not having this lumped coal surface of low-grade energy source unit and contacting of water-salt medium, also ensure that low concentration The use of heavy-fluid body, the use of described heavy-fluid body decreases the energy ezpenditure realizing transport operation, promotes reproducer.
In view of the online feature of this extraction-transport procedure, improve credit rating, improve transported solid fuel The consumption feature, decreases any mechanical loss from mine to thermo-power station stove distance simultaneously, and inventive method decreases high-quality The prevailing traffic of energy carrier spends, and meanwhile, described carrier is as comprising the free carrier of this " container " methane, less with carrying The ecological aspect of this fuel/dynamical system operation on any season and any geographic latitude.
Need not build coal treatment plant, not only reduce the capital investment of coal mining project, balance neighbouring simultaneously Place, colliery is placed coal and is extracted the loss of refuse, and the mine tailing produced for using underground coal to extract provides possibility, effectively controls ore deposit On stone, the rock soil mechanics process of cladding thickness, therefore, protects the soil damaged due to surface depression simultaneously.

Claims (8)

1. fossil fuel ore dressing by pipeline, fossil fuel are delivered to user method, it comprises the following steps:
In exploitation point, initial sillar is divided into multiple rock size grades;
Needs are subtracted undersized rock and grinds to form grinding product further;
Described grinding product is immersed together with the powder part separated from initial sillar a kind of fluid, described fluid close Degree is between the density and the density of barren rock of fossil fuel;
Described fossil fuel are ground and layering by described fluid with barren rock;
Subsequently by making fossil fuel swim in the fluid of the density that density exceedes described fossil fuel, fossil fuel are pulled to Earth's surface;
By the pipeline containing fossil fuel and fluid, fossil fuel are delivered to user;
Remove fluid from fossil fuel, and return to fluid exploit point;
By removing the waste product contained in fluid, fluid is regenerated;And
By with the density aqueous medium being wherein dissolved with mineral salt between the density and the density of barren rock of fossil fuel With non-aqueous volatile liquid and liquid gas, a part of fossil fuel are carried out other flotation,
Wherein said method is additionally included in cryogenic liquid medium the powder part ore dressing to grinding product and initial sillar, described The density of medium between the density and the density of barren rock of fossil fuel, subsequently by ore dressing process in the dry state with The blind heat exchange of external environment, withdraws the dressing product in ore dressing process, thus produces jet breeze end, by cryogenic liquid Steam liquefied, and the steam of liquefaction is returned to cryogenic liquid medium, jet breeze end is pressed into cylindric piece, is existed by pipeline Water-salt medium is delivered to user by described cylindric piece, removes water-salt Jie by washing cylindric piece with water from cylindric piece The residue of matter, and be dried in user is in sealing mill and grind cylindric piece, and trap the methane of release in process of lapping.
Fossil fuel ore dressing the most according to claim 1 and carrying method, wherein in summer, described method also includes powder Coal is pressed into hollow sealing cylinder, and described hollow sealing cylinder is dragged to earth's surface, and by making described hollow sealing cylinder Described hollow sealing cylinder is delivered to user by the water float in flowing.
Fossil fuel ore dressing the most according to claim 1 and carrying method, the most in the winter time, described method be additionally included in by Massive minerals fuel is put into resistance to before freezing in water-salt medium, and freezing to form water-salt medium at massive minerals fuel surface can not be saturating The ice sheet crossed, melts described ice sheet, the residue of hydraulic machinery separation water-salt medium and fossil fuel with air at user.
Fossil fuel ore dressing the most according to claim 1 and carrying method, wherein in summer, described method be additionally included in by Before fossil fuel are immersed in water-salt medium, the surface of fossil fuel coats the anti-of low-density low melting point organic material Water coating, removes organic material by melting organic material from fossil fuel, and by organic material and fossil fuel hydraulic press Tool separates, and is layered by the two phase flow of gained, obtains two kinds of immiscible liquid, and reuse in the process, or uses Described organic material is as extra HC fuel.
Fossil fuel ore dressing the most according to claim 1 and carrying method, wherein in the case of there is no the heating power energy, institute Method of stating also includes the residue being removed water-salt medium by following steps from fossil fuel: first with water-fast non-aqueous Liquid scrubbing fossil fuel, are subsequently washed with water fossil fuel, then repeat the demixing of the immiscible liquid of gained to use In described method.
Fossil fuel ore dressing the most according to claim 1 and carrying method, wherein in summer, by arriving with fresh water washing The solid fuel surface of destination, subsequently slurry arrive combustible mineral production site road in solar radiation under evaporate Washings, carry out recycled water-salt medium residue.
Fossil fuel ore dressing the most according to claim 1 and carrying method, the flammable ore deposit that wherein will produce at underground condition Thing loads vertical high voltage pipeline, inside has heavy water-salt medium, and massive minerals is dragged by water-salting liquid in isolation Underground Tunnels repeatedly To earth's surface, and use insoluble on-aqueous liquid subsequently, massive minerals is extruded this sealing Underground Tunnels, there is no the circle of solid fuel Got rid of in post, under pouring into the pressure on water-salt medium surface of the combustible mineral that next group is transported, injected on-aqueous liquid.
Fossil fuel ore dressing the most according to claim 7 and carrying method, wherein said insoluble on-aqueous liquid is bobbin oil.
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Families Citing this family (20)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102132098B (en) * 2008-07-25 2013-10-23 C·恩克博德 Method for conveying coal to thermal power plant for combustion
US8904668B2 (en) * 2012-10-11 2014-12-09 Eastman Kodak Company Applying heating liquid to remove moistening liquid
CN102965515B (en) * 2012-10-19 2014-12-10 宁波万象控股集团有限公司 Recycling method of ferronickel slag
IL227549A (en) 2013-07-18 2016-04-21 S G B D Technologies Ltd Methods and systems for underwater gas pressurization and liquefaction
US9664019B2 (en) 2013-07-18 2017-05-30 S.G.B.D. Technologies Ltd. Underwater gas field development methods and systems
EA201791635A1 (en) * 2013-07-18 2017-12-29 С.Г.Б.Д. Текнолоджиз Лтд. UNDERWATER GAS PRESSURE INCREASE MODULE, UNDERWATER NATURAL GAS LIQUIDATION SYSTEM AND METHOD OF UNDERWATER LIQUIDATION OF NATURAL GAS
KR101634069B1 (en) * 2014-12-23 2016-06-28 주식회사 포스코 Coal briquettes and method for manufacturing the same
CN106975564A (en) * 2015-04-27 2017-07-25 乔风成 A kind of recirculated water log washer
CN105750255B (en) * 2016-04-15 2017-09-29 龙江汇 A kind of water-saving oscillatory type log washer of high-efficiency environment friendly
US10434520B2 (en) 2016-08-12 2019-10-08 Arr-Maz Products, L.P. Collector for beneficiating carbonaceous phosphate ores
WO2018188045A1 (en) * 2017-04-14 2018-10-18 深圳市瑞荣创电子科技有限公司 Virtual eco-industrial park industrial ecological chain connection information processing system
US10144597B2 (en) * 2017-11-08 2018-12-04 Yusong Zheng Pipeline transportation method of coal
CN110203213B (en) * 2019-07-05 2024-01-23 中铁二院工程集团有限责任公司 Partition device of vacuum pipeline
DE102019128397A1 (en) * 2019-10-21 2021-04-22 Mann+Hummel Gmbh Separation device for separating liquid from gas, in particular air, and separation system of a machine
CN111253987B (en) * 2020-01-17 2021-11-26 山西浩林成套设备股份有限公司 Coal mine gas extraction device
CN112268833B (en) * 2020-09-27 2024-05-07 周少玺 Multifunctional gas parameter testing instrument and application method thereof
CN113431621B (en) * 2021-07-02 2024-02-27 重庆大学 Colliery coal spontaneous combustion water system fire extinguishing device and method
US20230219100A1 (en) * 2022-01-11 2023-07-13 Shaanxi Zhengtong Coal Industry Co., Ltd. Coarse coal slime classifying system and method
CN114602647B (en) * 2022-03-22 2022-10-18 南通大学 Coal-fired deironing device of boiler
CN114936461B (en) * 2022-05-31 2024-06-28 南京罕华流体技术有限公司 Method for optimizing flue gas circulation volume of thawing warehouse of coking plant

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4178231A (en) * 1974-01-14 1979-12-11 Otisca Industries, Ltd. Method and apparatus for coal separation using fluorinated hydrocarbons
US4205929A (en) * 1978-03-20 1980-06-03 Walter Rosenthal Slurry transport medium
US4247229A (en) * 1980-02-25 1981-01-27 Atlantic Richfield Company Mining method and apparatus
CN85106297A (en) * 1984-10-09 1986-09-24 比奇特尔国际公司 Ducting stabilized slurry rough coal
CN101502818A (en) * 2009-03-05 2009-08-12 煤炭科学研究总院唐山研究院 Integrated device for hydraulic classification and sorting of coarse slime as well as classification and sorting system
WO2009115933A1 (en) * 2008-03-17 2009-09-24 Chuluun Enkhbold A method of beneficiating and transporting minerals
WO2010010426A1 (en) * 2008-07-25 2010-01-28 Chuluun Enkhbold A method of coal delivery to a heat power plant for combustion
WO2010010427A1 (en) * 2008-07-25 2010-01-28 Chuluun Enkhbold A method of solid fuel beneficiation and transportation to thermoelectric power stations

Family Cites Families (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2754101A (en) * 1949-01-21 1956-07-10 Saskatchewan Potash Machine and method for mining underground deposits
US3719397A (en) * 1971-12-20 1973-03-06 Bechtel Int Corp Conveying a coal slurry with a single pipeline
US3874733A (en) * 1973-08-29 1975-04-01 Continental Oil Co Hydraulic method of mining and conveying coal in substantially vertical seams
DE3108425A1 (en) * 1981-03-06 1982-09-23 Basf Ag, 6700 Ludwigshafen METHOD FOR DEVELOPING A VERY DEEP COAL
JPS61123699A (en) * 1984-11-20 1986-06-11 Electric Power Dev Co Ltd Production of deashed slurry with high concentration
US4765781A (en) * 1985-03-08 1988-08-23 Southwestern Public Service Company Coal slurry system
US4946317A (en) * 1988-09-28 1990-08-07 The Curators Of The University Of Missouri Coal log pipeline system and method of operation
CA2054747C (en) 1989-05-03 2001-01-02 Norman Terry Cowper Pumping coal slurries
RU2017967C1 (en) * 1990-07-09 1994-08-15 Сибирский металлургический институт им.Серго Орджоникидзе Method for coal underground processing

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4178231A (en) * 1974-01-14 1979-12-11 Otisca Industries, Ltd. Method and apparatus for coal separation using fluorinated hydrocarbons
US4205929A (en) * 1978-03-20 1980-06-03 Walter Rosenthal Slurry transport medium
US4247229A (en) * 1980-02-25 1981-01-27 Atlantic Richfield Company Mining method and apparatus
CN85106297A (en) * 1984-10-09 1986-09-24 比奇特尔国际公司 Ducting stabilized slurry rough coal
WO2009115933A1 (en) * 2008-03-17 2009-09-24 Chuluun Enkhbold A method of beneficiating and transporting minerals
WO2010010426A1 (en) * 2008-07-25 2010-01-28 Chuluun Enkhbold A method of coal delivery to a heat power plant for combustion
WO2010010427A1 (en) * 2008-07-25 2010-01-28 Chuluun Enkhbold A method of solid fuel beneficiation and transportation to thermoelectric power stations
CN101502818A (en) * 2009-03-05 2009-08-12 煤炭科学研究总院唐山研究院 Integrated device for hydraulic classification and sorting of coarse slime as well as classification and sorting system

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